RU129431U1 - PNEUMATIC CONE-SHAPED PIPE - Google Patents

Abstract

Pneumatic conical pipe, consisting of an angled working chamber, rotationally driven by a pulley, a loading pipe, a tail pipe for unloading tails, a device for pumping air flow, characterized in that the conical pipe is installed with an inclination upward relative to the flow supply, the camera is divided on the section, after a certain interval in the conical pipe around the circumference there are discharge openings for concentrate, before each belt of discharge openings flax sills with a height of 3 mm, allowing to obtain concentrates with different densities, which is convenient when developing deposits with several useful minerals.

Description

A utility model relates to the field of classification and mineral processing.

Known screw pneumatic separator, consisting of a vertically mounted working separation chamber, flow disintegrants, loading nozzle, upper nozzle for unloading the tailings and lower for unloading the concentrate, a device for pumping the main air flow from below. [one].

The disadvantage of this separator is its very limited performance. Attempts to overload it with the source material lead to the fact that the living section of the separator is clogged with low-density material and, for this reason, selectivity is violated.

Closest to the proposed utility model is an aerogravitational separator of mixed materials consisting of a rotating drum with an inclined axis of rotation, a volumetric lid at the base of the cone, a perforated partition at the place of the base of the cone, separating the internal cavity of the drum from the lid cavity, and an air duct with a pump and a filter connecting the top of a rotating drum with a cavity of the lid and forming a closed air circuit, and a loading device. The rotating drum is made conical or cylindrical. A loading device in the form of a loading hopper with a sleeve passed through a perforated partition into the inner cavity of a drum or a filling neck with a hydraulic shutter. The inner cavity of the drum is divided into sections by unequal coaxial partitions made of cylindrical or in the form of truncated cones paired with partitions in the inner cavity of the lid, dividing it into respective sections. The cavity of the sections in the lid is equipped with air ducts with pumps and filters and form separate separation channels with them, closing to a common air line. The inner surfaces of the walls of the drum and partitions are provided with blades, or shelves, or intersecting walls forming a uniform honeycomb coating. [2].

The disadvantage of this airborne separator is the complicated design of the discharge. It is possible to clog the unloading spaces of the drum sections, in connection with which the separation of the mixed materials ceases. This is due to the fact that during air separation, stagnant foci appear, which will lead to clogging.

Efficiency of air separation in density with a high degree of reduction is achieved in the proposed pneumatic conical pipe, consisting of an angled working chamber rotationally driven by a pulley, a loading nozzle, a nozzle for unloading the tails, a device for forcing an air stream, characterized in that it is conical the pipe is installed with an inclination upward relative to the flow supply, the camera is divided into sections, after a certain gap in the conical pipe along STI are discharge openings for the concentrate before each belt discharge openings mounted porozhki 3 mm in height, allowing to obtain concentrates with different densities, which is useful in the development of fields with several minerals.

A comparative analysis with an analogue [1] shows that in the proposed embodiment, the design is much simpler and provides an effective separation of minerals by density. Therefore, the proposed utility model meets the criterion of "novelty."

In contrast to the prototype, in the proposed embodiment, the nature of the movement and distribution of solid particles on the working surface is fundamentally changed. The mass is loosened due to the rotation of the nozzle and is distributed evenly on it. Thus, the formation of sand "blockages" and corridors of "breakdown" between them is excluded, which allows the material to be divided by density more qualitatively. The removed material of the light fractions moves mainly on top of the rotating surface and is discharged through the tail end discharge pipe. Heavy minerals fall over the spills and fall out through the discharge openings of the concentrate. The result is several concentrates with different densities, which is convenient when developing deposits with several useful minerals. Due to the fact that the flow velocity decreases as it moves through the pneumatic conical pipe, the separation of minerals by density is improved.

Thus, a comparative analysis allows us to conclude that the criterion of "utility model".

The essence of the utility model is illustrated by the drawing in figure 1. Pneumatic conical pipe consists of a pipe 1 through which air flow is supplied, a loading pipe 2, sills 3, a pulley of rotation 4, a discharge pipe of the tails 5, discharge holes for the concentrate 6 (a, b, c, d).

The utility model has the form of a pneumatic conical pipe with a gradual expansion of the inner diameter at an angle of 5 °, into which, through the pipe 1, the air flow is supplied. In this case, the conical pipe is installed with an inclination upward relative to the flow inlet and is rotationally driven by the pulley 4. The test mixture is supplied through the loading pipe 2. The working chamber is divided into sections in which, after a certain interval around the circumference of the pipe, there are discharge openings for concentrate 6a, 6b, 6c, 6g. In front of each belt of the discharge openings, sills 3 of 3 mm high are installed. It is assumed that as you move, the flow rate will drop. As a result of this, particles with increased density will slide down through the discharge openings 6 (a, b, c, d), and light particles will be discharged into the discharge pipe of the tailings 5.

In general, the pneumatic cone-shaped tube, thanks to the distinguishing features, provides a more complete extraction of heavy minerals and high productivity.

Bibliography:

1. Patent No. 2194581, Russian Federation. Screw pneumatic separator. / Filippov V.E., Lebedev I.F., Matveev A.I., Grigoryev A.N. / Inst. affairs of the North SB RAS; publ. 12/20/2002, BI No. 35.

2. Patent No. 2404862. Pneumoseparator. Hamukov Yuri Khabizhevich. - Declared. 11/21/2008; publ. 27,11,2010 // 2010 - No. 33. Part 3 - S.703.

Claims (1)

Pneumatic conical pipe, consisting of an angled working chamber, rotationally driven by a pulley, a loading pipe, a tail pipe for unloading tails, a device for pumping air flow, characterized in that the conical pipe is installed with an inclination upward relative to the flow supply, the camera is divided on the section, after a certain interval in the conical pipe around the circumference there are discharge openings for concentrate, before each belt of discharge openings flax sills with a height of 3 mm, allowing to obtain concentrates with different densities, which is convenient when developing deposits with several useful minerals.

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